The alveolar epithelium, composed of type 1 (AT1) and type 2 (AT2) cells, is central to gas exchange and the lung's response to injury. Historically viewed as a simple barrier, recent advances have unveiled the profound dynamics and plasticity of these cells in orchestrating tissue repair. This mini-review synthesizes recent breakthroughs in our understanding of the cellular and molecular mechanisms governing alveolar regeneration. We focus on the expanding diversity of progenitor cells, including resident AT2 cells and newly identified multipotent progenitors in the distal airways, and the complex signaling networks that dictate their fate. Furthermore, we explore the emergence of transitional cell states during repair and how aberrant cellular behaviors can drive pathological outcomes like fibrosis. A deeper comprehension of this dynamic cellular behavior is paramount for developing novel therapeutic strategies to promote effective lung repair and combat chronic lung disease.
Yamagata et al. (Fri,) studied this question.